Tirohia nga mea katoa e hiahia ana koe ki te mohio mo te hotaka me te COMSOL Multiphysics 6.0 i roto i tenei pukapuka tohutoro matawhānui. Tangohia te PDF inaianei ka kawe i o pukenga ki te taumata e whai ake nei.
Discover the capabilities of COMSOL Multiphysics version 6.0 with this comprehensive reference manual. Learn to build, simulate, and analyze complex multiphysics models using the integrated COMSOL Desktop environment, covering geometry, meshing, physics interfaces, solvers, and results visualization.
Comprehensive guide to COMSOL Multiphysics Version 5.2, covering simulation, modeling, geometry, meshing, physics interfaces, solvers, and results analysis for engineering and scientific applications.
A comprehensive user guide for the COMSOL Semiconductor Module, detailing physics interfaces, modeling guidelines, theoretical background, and application examples for simulating semiconductor devices using COMSOL Multiphysics.
A comprehensive guide to the COMSOL Multiphysics v5.5 software, detailing its integrated modeling environment, extensive features, tools, documentation, and capabilities for multiphysics simulations across diverse engineering and scientific disciplines.
User's Guide for the COMSOL Ray Optics Module, an optional add-on package for COMSOL Multiphysics. This guide details ray tracing simulation, geometrical optics interfaces, and multiphysics couplings.
A comprehensive guide to the COMSOL Multiphysics API, covering programming commands for geometry, meshing, solvers, and results. This manual is essential for users looking to automate and customize their COMSOL simulations.
This user's guide provides comprehensive information on the COMSOL Ray Optics Module, detailing its features for geometrical optics and ray heating simulations, including setup, modeling, and results analysis.
Explore COMSOL LiveLink for Revit, a powerful tool for seamless geometry synchronization between Revit Architecture and COMSOL Desktop. Learn how to prepare CAD designs for multiphysics analysis with integrated repair and defeaturing tools.
User's guide for the COMSOL Multiphysics MEMS Module, covering simulation of microelectromechanical systems (MEMS) devices, physics interfaces, modeling techniques, and applications.
Explore the capabilities of the COMSOL Plasma Module with this comprehensive user's guide. Learn about plasma physics interfaces, data requirements, and advanced modeling techniques for low-temperature plasmas.
Explore the capabilities of the COMSOL Electrochemistry Module with this user's guide. Learn about modeling electrochemical cells, current distribution, species transport, and electroanalysis using COMSOL Multiphysics.
Comprehensive user's guide for the COMSOL Chemical Reaction Engineering Module, detailing its physics interfaces, theoretical background, and practical application for simulating chemical reactions, mass transport, and thermodynamics in chemical engineering.
